Shadoof

Last updated February 16, 2024

A shadoof or shaduf^[1] is an irrigation tool that is used to lift water from a water source onto land or into another waterway or basin. It is highly efficient, and has been known since 3000 BCE.

History

One theory states that the shadoof was invented in prehistoric times in Mesopotamia as early as the time of Sargon of Akkad (around 24th and 23rd centuries BCE). The earliest evidence of this technology is a cylindrical seal with a depiction of a shadoof dating back to about 2200 BCE. Then, it is believed that the Minoans adopted this technology; evidence suggests the use of shadoofs as early as around 2100-1600 BCE. The shadoof appeared in Upper Egypt sometime after 2000 BC, most likely during the 18th Dynasty.^[3] Around the same time, the shadoof reached China.

Some historians believe the Egyptians were the original inventors of the shadoof. The theory states that the shadoof originated along the Nile, using tomb drawings illustrating shadoofs at Thebes dating from 1250 BCE as evidence.^[4]

An alternative origin theory states that shadoof originated from India around the same time as in Mesopotamia. This theory owes to the fact that the shadoof was well spread in India; however, there is little to no other evidence that makes this theory any stronger.^[3]

It is still used in many areas of Africa and Asia and is very common in rural areas of India and Pakistan, such as the Bhojpuri belt of the Ganges plain, In Europe, they remain common in Germany and Hungary's Great Plain, where they are considered a symbol of the region. They are also well widespread throughout Eastern Europe in countries like Ukraine, Belarus, and the Baltic states.

Design, construction, and efficiency

The shadoof is easy to construct and is highly efficient in use.^[5] It consists of an upright frame on which is suspended a long pole or branch, at a distance of about one-fifth of its length from one end.^[5] At the long end of this pole hangs a bucket, skin bag, or bitumen-coated reed basket. The bucket can be made in many different styles, sometimes having an uneven base or a part at the top of the skin that can be untied. This allows the water to be immediately distributed rather than manually emptied. The short end carries a weight made of clay, stone, or a similar material, which serves as the counterpoise of a lever. The bucket can be lowered by the operator using their own weight to push it down; the counterweight then raises the full bucket without effort.^[5]^[6]

The implementations vary from region to region. The frame can consist of a single pole or a pair, and the buckets can be attached in multiple different ways, from being tied to a rope to being attached to a thinner stick.^[3]

With an almost effortless swinging and lifting motion, the waterproof vessel can be used to scoop up and carry water from a body of water (typically, a river or pond) onto land or to another body of water. At the end of each movement, the water is emptied out into runnels that convey the water along irrigation ditches in the required direction.^[6] The device is capable of lowering the force levels required of operators to the extent that the performance tends to be limited by the energy processing capacity of the operator and not necessarily muscle fatigue.

The shadoof has a lifting range of 1 to 6 meters. A study of efficiency in various sites in Chad has shown that one man can lift 39 to 130 liters per minute over heights of 1.8 to 6.2 m, resulting in water-lifting power levels of 26.7 to 60.1 W. Its efficiency has been calculated at 60%.^[4]^[7]

A study done in Nigeria also indirectly assessed energy usage through heart rate, serving as the physiological metric. Through this approach, it was discovered that making suitable adjustments to the shadoof decreased energy consumption from approximately 109 to 71 watts (equivalent to 6.56 to 4.27 kilojoules per minute). This reduction enables a farmer to engage in prolonged work without necessitating frequent rest breaks.^[7]

Social effects

Across numerous cultures, shadoofs have symbolized collective effort.^[7] In ancient Egypt and Mesopotamia, for instance, the multi-tiered shadoof systems allowed the movement of water to higher levels through teamwork.^[8] Together with other irrigation technologies, shadoofs not only helped establish reliable methods of agriculture for growing civilizations but also influenced cultural elements.^[9]

The accessibility and utilization of shadoofs have been linked to class. During the Egyptian Middle Empire and the New Kingdom, pleasure gardens featuring shadoof irrigation became a hallmark of luxury residences and consequently a status symbol.^[10] Although not directly, shadoofs contributed to creating a class system, a barrier for some. At the same time, shadoofs have remained essential for those with limited resources to support their livelihoods on large-scale farms around the Nile. Even in the present day, many communities worldwide lack access to more sophisticated water technologies, making shadoofs an indicator of socio-economic standing and a certain measure of societal development. The technology's reliability, despite its antiquity, often gets overlooked.^[7]

The geographic spread of shadoofs is impressive. In regions where irrigation is imperative, such as Egypt, India, and parts of sub-Saharan Africa, shadoofs have played a crucial role in enabling agriculture to thrive in water-scarce areas. Shadoofs have empowered marginalized communities by providing them with the means to secure their sustenance, breaking the barrier of food insecurity even in the modern age.^[4]^[7]

Gender roles have also undergone a transformation, with women frequently assuming shadoof operation.^[11] The ease of use of the shadoof empowered women to play a more active role in farming. It is fair to acknowledge that shadoofs contributed to normalizing women's increased independence and participation in less physically demanding, and therefore more “socially acceptable”, aspects of food production.^[11]

The ease of use of the shadoof is perhaps its most important feature. Studies have shown that it is impressively efficient, given the simplicity of its design. Still, it is essential to recognize that shadoofs, while easing the physical demands of water retrieval, require manual labor, posing a barrier for individuals with certain physical disabilities.^[4] This underscores the need for more inclusive adaptations of this ancient technology.

Names

Shadoof or shaduf comes from the Arabic word شادوف, šādūf.
It is also called a lift,^[5]well pole, well sweep, or simply a sweep in the US.^[12] A less common English translation is swape.^[13]
Picotah (or picota) is a Portuguese loan word.
It is also called a jiégāo (桔槹) in Chinese.
The Tamil name is thulla (துலா), while the Telugu name is ethaamu (ఏతాము) or ethamu (ఏతము).
It was also known by the Ancient Greek name kēlōn (κήλων) or kēlōneion (κηλώνειον); this term (קילון) is also borrowed in Mishnaic Hebrew.
In Ukrainian, it is called krynychnyi zhuravel (криничний журавель, "well crane") for its shape; it is also known as zvid (звід).
In Hungarian, is known as gémeskút (literally, "heron wells").

Gallery

Shadoof in Egypt
Shadoof in Pyrohiv Museum, Ukraine
Shadoof in Belarus
Shadoof in Turkey
Shadoof in Germany

In art

Ancient wall painting in Egypt
Painting by Károly Sterio, 1855
Painting by Ivan Sokolov, 1864

In heraldry

The use of shadoofs in certain areas influenced heraldry.^[9] Below are some examples of heraldic elements of various subdivisions.

Dobropilsky raion, Donetsk oblast
Börnsen, Germany
Born, Germany
Holice, Czechia

Related Research Articles

Mesopotamia is a historical region of West Asia situated within the Tigris–Euphrates river system, in the northern part of the Fertile Crescent. Today, Mesopotamia is known as present-day Iraq. In the broader sense, the historical region of Mesopotamia included parts of present-day Iran, Kuwait, Syria, and Turkey.

Irrigation is the practice of applying controlled amounts of water to land to help grow crops, landscape plants, and lawns. Irrigation has been a key aspect of agriculture for over 5,000 years and has been developed by many cultures around the world. Irrigation helps to grow crops, maintain landscapes, and revegetate disturbed soils in dry areas and during times of below-average rainfall. In addition to these uses, irrigation is also employed to protect crops from frost, suppress weed growth in grain fields, and prevent soil consolidation. It is also used to cool livestock, reduce dust, dispose of sewage, and support mining operations. Drainage, which involves the removal of surface and sub-surface water from a given location, is often studied in conjunction with irrigation.

The Archimedes' screw, also known as the Archimedean screw, hydrodynamic screw, water screw or Egyptian screw, is one of the earliest hydraulic machines. Using Archimedes screws as water pumps dates back many centuries. As a machine used for lifting water from a low-lying body of water into irrigation ditches, water is lifted by turning a screw-shaped surface inside a pipe. In the modern world, Archimedes screw pumps are widely used in wastewater treatment plants and for dewatering low-lying regions. Run in reverse, Archimedes screw turbines act as a new form of small hydroelectric powerplant that can be applied even in low head sites. Such generators operate in a wide range of flows and heads, including low heads and moderate flow rates that is not ideal for traditional turbines and not occupied by high performance technologies. The Archimedes screw is a reversible hydraulic machine, and there are several examples of Archimedes screw installations where the screw can operate at different times as either pump or generator, depending on needs for power and watercourse flow.

Hydraulics is a technology and applied science using engineering, chemistry, and other sciences involving the mechanical properties and use of liquids. At a very basic level, hydraulics is the liquid counterpart of pneumatics, which concerns gases. Fluid mechanics provides the theoretical foundation for hydraulics, which focuses on applied engineering using the properties of fluids. In its fluid power applications, hydraulics is used for the generation, control, and transmission of power by the use of pressurized liquids. Hydraulic topics range through some parts of science and most of engineering modules, and cover concepts such as pipe flow, dam design, fluidics and fluid control circuitry. The principles of hydraulics are in use naturally in the human body within the vascular system and erectile tissue.

A water wheel is a machine for converting the energy of flowing or falling water into useful forms of power, often in a watermill. A water wheel consists of a wheel, with a number of blades or buckets arranged on the outside rim forming the driving car. Water wheels were still in commercial use well into the 20th century but they are no longer in common use. Uses included milling flour in gristmills, grinding wood into pulp for papermaking, hammering wrought iron, machining, ore crushing and pounding fibre for use in the manufacture of cloth.

A hydraulic empire, also known as a hydraulic despotism, hydraulic society, hydraulic civilization, or water monopoly empire, is a social or government structure which maintains power and control through exclusive control over access to water. It arises through the need for flood control and irrigation, which requires central coordination and a specialized bureaucracy.

Hydraulic engineering as a sub-discipline of civil engineering is concerned with the flow and conveyance of fluids, principally water and sewage. One feature of these systems is the extensive use of gravity as the motive force to cause the movement of the fluids. This area of civil engineering is intimately related to the design of bridges, dams, channels, canals, and levees, and to both sanitary and environmental engineering.

The history of technology is the history of the invention of tools and techniques and is one of the categories of world history. Technology can refer to methods ranging from as simple as stone tools to the complex genetic engineering and information technology that has emerged since the 1980s. The term technology comes from the Greek word techne, meaning art and craft, and the word logos, meaning word and speech. It was first used to describe applied arts, but it is now used to describe advancements and changes which affect the environment around us.

The chain pump is type of a water pump in which several circular discs are positioned on an endless chain. One part of the chain dips into the water, and the chain runs through a tube, slightly bigger than the diameter of the discs. As the chain is drawn up the tube, water becomes trapped between the discs and is lifted to and discharged at the top. Chain pumps were used for centuries in the ancient Middle East, Europe, and China.

During the growth of the ancient civilizations, ancient technology was the result from advances in engineering in ancient times. These advances in the history of technology stimulated societies to adopt new ways of living and governance.

A treadle pump is a human-powered suction pump that sits on top of a well and is used for irrigation. It is designed to lift water from a depth of seven metres or less. The pumping is activated by stepping up and down on a treadle, which are levers, which drive pistons, creating cylinder suction that draws groundwater to the surface.

A river valley civilization is an agricultural nation or civilization situated beside and drawing sustenance from a river. A river gives the inhabitants a reliable source of water for drinking and agriculture. Additional benefits include fishing, fertile soil due to annual flooding, and ease of transportation.

Ancient Egyptian technology describes devices and technologies invented or used in Ancient Egypt. The Egyptians invented and used many simple machines, such as the ramp and the lever, to aid construction processes. They used rope trusses to stiffen the beam of ships. Egyptian paper, made from papyrus, and pottery were mass-produced and exported throughout the Mediterranean Basin. The wheel was used for a number of purposes, but chariots only came into use after the Second Intermediate Period. The Egyptians also played an important role in developing Mediterranean maritime technology including ships and lighthouses.

The Arab Agricultural Revolution was the transformation in agriculture in the Old World during the Islamic Golden Age. The agronomic literature of the time, with major books by Ibn Bassal and Abū l-Khayr al-Ishbīlī, demonstrates the extensive diffusion of useful plants to Medieval Spain (al-Andalus), and the growth in Islamic scientific knowledge of agriculture and horticulture. Medieval Arab historians and geographers described al-Andalus as a fertile and prosperous region with abundant water, full of fruit from trees such as the olive and pomegranate. Archaeological evidence demonstrates improvements in animal husbandry and in irrigation such as with the saqiyah waterwheel. These changes made agriculture far more productive, supporting population growth, urbanisation, and increased stratification of society.

A sāqiyah or saqiya, also spelled sakia or saqia) is a mechanical water lifting device. It is also called a Persian wheel, tablia, rehat, and in Latin tympanum. It is similar in function to a scoop wheel, which uses buckets, jars, or scoops fastened either directly to a vertical wheel, or to an endless belt activated by such a wheel. The vertical wheel is itself attached by a drive shaft to a horizontal wheel, which is traditionally set in motion by animal power Because it is not using the power of flowing water, the sāqiyah is different from a noria and any other type of water wheel.

Frequently used in mines and probably elsewhere, the reverse overshot water wheel was a Roman innovation to help remove water from the lowest levels of underground workings. It is described by Vitruvius in his work De architectura published circa 25 BC. The remains of such systems found in Roman mines by later mining operations show that they were used in sequences so as to lift water a considerable height.

The civilization of ancient Egypt was indebted to the Nile River and its dependable seasonal flooding. The river's predictability and fertile soil allowed the Egyptians to build an empire on the basis of great agricultural wealth. Egyptians are credited as being one of the first groups of people to practice agriculture on a large scale. This was possible because of the ingenuity of the Egyptians as they developed basin irrigation. Their farming practices allowed them to grow staple food crops, especially grains such as wheat and barley, and industrial crops, such as flax and papyrus.

Agricultural technology or agrotechnology is the use of technology in agriculture, horticulture, and aquaculture with the aim of improving yield, efficiency, and profitability. Agricultural technology can be products, services or applications derived from agriculture that improve various input/output processes.

Mechanical engineering is a discipline centered around the concept of using force multipliers, moving components, and machines. It utilizes knowledge of mathematics, physics, materials sciences, and engineering technologies. It is one of the oldest and broadest of the engineering disciplines.

Egypt–Mesopotamia relations were the relations between the civilisations of ancient Egypt and Mesopotamia, in the Middle East. They seem to have developed from the 4th millennium BCE, starting in the Uruk period for Mesopotamia and the half a millennium younger Gerzean culture of Prehistoric Egypt, and constituted a largely one way body of influences from Mesopotamia into Egypt.

References

↑ "Performance Characteristics of the Shaduf: A Manual Water-Lifting Device". Asae.frymulti.com. Archived from the original on 2011-07-11. Retrieved 2012-04-03.
↑ Roberts, John (2013). Allen Lane (ed.). The Penguin History of the World. Penguin Books. ISBN 978-1846144431.
1 2 3 Yannopoulos, Stavros I.; Lyberatos, Gerasimos; Theodossiou, Nicolaos; Li, Wang; Valipour, Mohammad; Tamburrino, Aldo; Angelakis, Andreas N. (September 2015). "Evolution of Water Lifting Devices (Pumps) over the Centuries Worldwide". Water. 7 (9): 5031–5060. doi: 10.3390/w7095031 . ISSN 2073-4441.
1 2 3 4 t. h. Mirti; w. w. Wallender; w. j. Chancellor; m. e. Grismer (1999). "PERFORMANCE Characteristics of the Shaduf: A Manual Water-Lifting Device". Applied Engineering in Agriculture. 15 (3): 225–231. doi:10.13031/2013.5769 . Retrieved 2023-12-01.
1 2 3 4 D. T. Potts (2012). A Companion to the Archaeology of the Ancient Near East. John Wiley & Sons. p. 264.
1 2 Faiella, Graham (2006). The Technology of Mesopotamia. The Rosen Publishing Group. p. 27. ISBN 9781404205604.
1 2 3 4 5 Nwuba, E. I. U. (1989-05-01). "Ergonomic study of shadoof irrigation in northern Nigeria". Journal of Agricultural Engineering Research. 43: 137–147. doi:10.1016/S0021-8634(89)80013-7. ISSN 0021-8634.
↑ "Human Nature, Technology & the Environment". fubini.swarthmore.edu. Retrieved 2023-12-01.
1 2 Crabben, Jan van der. "Agriculture in the Fertile Crescent & Mesopotamia". World History Encyclopedia. Retrieved 2023-12-01.
↑ "Gardens in Ancient Egypt". National Museums Liverpool. Retrieved 2023-12-01.
1 2 Fredriksson, Per G, and Satyendra Kumar Gupta. “Irrigation and Culture: Gender Roles and Women’s Rights.” Econstor.eu, 7 Oct. 2020, www.econstor.eu/bitstream/10419/225005/1/GLO-DP-0681.pdf
↑ Knight, Edward Henry. Knight's American mechanical dictionary. Vol. 3. New York, Hurd and Houghton: Riverside Press, 1877. 2,468. Print.
↑ "Definition of "Swape"". Webster's Revised Unabridged Dictionary. MICRA Inc. Retrieved 2007-04-25.

External links

The Shaduf Project: A European Commission Report on Mediterranean Shaduf Use and History

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.

[Fry-1] "Performance Characteristics of the Shaduf: A Manual Water-Lifting Device". Asae.frymulti.com. Archived from the original on 2011-07-11. Retrieved 2012-04-03.

[Roberts-2] Roberts, John (2013). Allen Lane (ed.). The Penguin History of the World. Penguin Books. ISBN 978-1846144431.

[:0-3] 1 2 3 Yannopoulos, Stavros I.; Lyberatos, Gerasimos; Theodossiou, Nicolaos; Li, Wang; Valipour, Mohammad; Tamburrino, Aldo; Angelakis, Andreas N. (September 2015). "Evolution of Water Lifting Devices (Pumps) over the Centuries Worldwide". Water. 7 (9): 5031–5060. doi: 10.3390/w7095031 . ISSN 2073-4441.

[:1-4] 1 2 3 4 t. h. Mirti; w. w. Wallender; w. j. Chancellor; m. e. Grismer (1999). "PERFORMANCE Characteristics of the Shaduf: A Manual Water-Lifting Device". Applied Engineering in Agriculture. 15 (3): 225–231. doi:10.13031/2013.5769 . Retrieved 2023-12-01.

[Potts2-5] 1 2 3 4 D. T. Potts (2012). A Companion to the Archaeology of the Ancient Near East. John Wiley & Sons. p. 264.

[Faiella-6] 1 2 Faiella, Graham (2006). The Technology of Mesopotamia. The Rosen Publishing Group. p. 27. ISBN 9781404205604.

[:2-7] 1 2 3 4 5 Nwuba, E. I. U. (1989-05-01). "Ergonomic study of shadoof irrigation in northern Nigeria". Journal of Agricultural Engineering Research. 43: 137–147. doi:10.1016/S0021-8634(89)80013-7. ISSN 0021-8634.

[8] "Human Nature, Technology & the Environment". fubini.swarthmore.edu. Retrieved 2023-12-01.

[:3-9] 1 2 Crabben, Jan van der. "Agriculture in the Fertile Crescent & Mesopotamia". World History Encyclopedia. Retrieved 2023-12-01.

[10] "Gardens in Ancient Egypt". National Museums Liverpool. Retrieved 2023-12-01.

[:4-11] 1 2 Fredriksson, Per G, and Satyendra Kumar Gupta. “Irrigation and Culture: Gender Roles and Women’s Rights.” Econstor.eu, 7 Oct. 2020, www.econstor.eu/bitstream/10419/225005/1/GLO-DP-0681.pdf

[Knight-12] Knight, Edward Henry. Knight's American mechanical dictionary. Vol. 3. New York, Hurd and Houghton: Riverside Press, 1877. 2,468. Print.

[Webster-13] "Definition of "Swape"". Webster's Revised Unabridged Dictionary. MICRA Inc. Retrieved 2007-04-25.

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

[9]

[10]

[11]

[12]

[13]